Diethyl ester



Patented Sept. 22, 1931 1,824,069

UNITED STATES PATENT OFFICE BENJAMIN T. BROOKS, OF GREENWICH, CONNECTICUT, AND EUGENE J. CARDARE'LLI, OF NEWARK, NEW JERSEY, ASSIGNORS TO PETROLEUM CHEMICAL CORPORATION, A CORPORATION OF DELAWARE DIETHYL ESTER No Drawing. Application filed August 16, 1930. Serial No. 475,854.

This invention relates specifically to the reacting constituents to the boiling point of diethyl ester of A 4 cyclohexene 1.2 dicar-- the alcohol present while refluxing any va orboxylic acid, and will be fully understood ized alcoho One convenient method opfrom the following description. We may eration consists in heating the reacting com- 5 employ the said acid either in a form of the ponents to the boiling point, condensing the acid or its anhydride, and both such forms vapors, permitting the condensate to stratify, will be denoted generically in this specificaand returning the alcohol layer to the still. tion and claims by the phrase A 4 cyclo- In this way any excess of water originally hexene 1.2 dicarboxylic acid. The said acid present or formed during the reaction, in exmay be made by combining maleic acid or the cess of that which is soluble in the alcohol anhydride thereof with butadiene. For this condensed, will be removed from the reaction purpose the butadiene and maleic acid or zone thereby facilitating the process. anhydride are mixed and preferably heated An alternative procedure consists in addto temperatures of from 95 to 120 C. The ing a small quantity, say not in excess of 15 reactants are preferably present in substanby weight, of benzol to the liquid reactants tially equimolar proportions and are retained and then heating the ternary system so formed under sufiicient pressure during the reaction to the boiling point. The vapors arethen conperiod to hold the butadiene in liquid phase. densed and Stratified and the benzol alcohol We may alternatively mix the maleic acid or layer is returned to the still. This system 20 its anh dride with hydrocarbon mixtures also permits withdrawing of an excess of containing butadiene, or we may add a solwater from the reaction zone an facilitates vent, such as benzol, to the reaction mixture. the progress of the reaction.

In one procedure we may, for example, take In generating the said diethyl ester, northe products of extensive cracking of petromal ethyl alcohol is heated with the said acid, leum oil as, for example, products of liquid and in this case up to about 5% by weight of phase cracking carried out at high tempera sulphuric acid may be employed as a tures say above 950 F. or in vapor phase at catalyst. The said mixture may be heated up any pressure, and preferably separate thereto the boiling point of the alcohol present for from a fraction the olefine content of which a period of hours, and at the expiration of 30 consists predominantly of olefines of 4 carbon this time the excess of alcohol together with 80 atoms to the molecule. Such a fraction preany water formed may be distilled oif. We

pared for example from the products of find it convenient to work with slightly more vapor phase cracking carried out at atmosthan 2 mols of alcohol for each mol of acid, pheric pressure and temperatures between although the materials may, if desired, be

as 1050 and 1150 F. may contain. between 10 mixed in any proportions and the excess of 4 and 30% of butadiene. We preferably, howeither component may be separated at the ever, separate the butadiene from such a fracconclusion of the reaction.

tion by the process described in co-pending After distilling off the excess of alcohol appiication Serial No. 483,426, and after sepand water, the crude ester is neutralized, for

so aration ofsubstantially pure butadiene thereexample, with sodium carbonate, to neutralfrom admix said butadiene with maleic acid ize any sulphuric acid present, and the pure or its anhydride, thereby forming A 4 cycloester may be separated by Vacuum distillahexene dicarboxylic acid anhydride. The tion. We have found that the diethyl ester diethyl esters of this acid may be made by boils at about 133 to 137 C. under 5 mm. of

45 warmm said acid or anh dride with ethyl mercur ressure.

g .V y P alcohol preferably in the presence of a cata- The hereinabove described ester is a colorlyst such as, for example, a catalyst which in less and practically odorless oily fiuid. It is a the ordinary organic reactions facilitates the solvent for gums, resins, nitro cellulose, cellusplitting off of water. One convenient methlose acetate, etc. It may be employed in com- 0d of carrying out the reaction is to warm the bination with other solvents in the formation 10!.

of lacquers, practically prising cellulose esters, and is particularly valuable as a high boiling point plasticizer for lacquer films.

The foregoing specific description is for purposes of illustration and not of limitation. It is therefore our intention that the invention be'limited only by the appended claims or their equivalents in which we have endeavored to claim broadly all inherent novelty.

We claim:

1. The diethyl ester of A 4 cyclohexene dicarboxylic acid.

2. The new compound stantially to the formula cn-om-cn-coocuh lI-CHrCH-COOCaH:

3. A solvent mixture for cellulose esters comprising the diethyl ester of A 4 cyclohexene dicarboxylic acid.

BENJAMIN T. BROOKS. EUGENE J. CARDARELLI.

those lacquers comcorresponding sub- 

